Identification and diversity analysis of interspecific citrus rootstock hybrids with combination of morphological traits and microsatellite markers
Rough lemon is indigenous and has wide adaptability in Indian citriculture. Rough lemon and Volkamer lemon are comparable in horticultural performance and their resistance against biotic and abiotic stresses are almost similar but Volkamer lemon has better adaptability in different agroclimatic cond...
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Published in | Horticulture, environment and biotechnology Vol. 65; no. 3; pp. 539 - 565 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
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Singapore
Springer Nature Singapore
2024
Springer Nature B.V 한국원예학회 |
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Abstract | Rough lemon is indigenous and has wide adaptability in Indian citriculture. Rough lemon and Volkamer lemon are comparable in horticultural performance and their resistance against biotic and abiotic stresses are almost similar but Volkamer lemon has better adaptability in different agroclimatic conditions. To improve Volkamer lemon hybridization has been attempted with Kinkoji (citrus greening tolerance), Swingle citrumelo (
Phytophthora
resistance), and Cleopatra (salinity tolerance). Polyembryony in Volkamer lemon and absence of the heritable morphological markers (Cleopatra) are limiting factors for hybrid identification and morphological characters are not being segregated in Kinkoji and Swingle citrumelo at early stage, then molecular markers are employed for detection of putative zygotic seedlings. We performed hybridization between Volkamer lemon (♀), Kinkoji (B cross) (58 F
1
) (♂), Swingle citrumelo (D cross) (71 F
1
) (♂), Cleopatra (N cross) (83 F
1
) (♂) and discriminate the hybrids by using 25 SSR markers. The fifteen markers were found efficient for hybrid identification (> 71% hybrids detected). CCSME23 (88.21%) marker has detected 187 hybrids in all crosses thereafter, 184 hybrids detected each by HvSSRCS-2, HvSSRCS-135, HvSSRCS-237, HvSSRCM-92 and HvSSRCM-466 with 86.79%. A total of 44 qualitative and 18 quantitative characters were analysed. Fifteen qualitative and six quantitative characters were found significant variability in leaf, spine, branch, and stem. Sufficient amount of genetic variability was detected through phylogenetic analysis and population structure analysis showed two subpopulations in B and N cross but in D cross five subpopulations were detected. After primary screening, nine F
1
hybrids for citrus greening tolerance and twelve F
1
hybrids for
Phytophthora
tolerance were identified. The newly developed F
1
hybrids exhibited phenotypic and genetic diversity along with disease tolerance. These potential hybrids may be recommended for commercial citriculture after thorough horticultural evaluation. |
---|---|
AbstractList | Rough lemon is indigenous and has wide adaptability in Indian citriculture. Rough lemon and Volkamer lemon are comparable in horticultural performance and their resistance against biotic and abiotic stresses are almost similar but Volkamer lemon has better adaptability in different agroclimatic conditions. To improve Volkamer lemon hybridization has been attempted with Kinkoji (citrus greening tolerance), Swingle citrumelo (
Phytophthora
resistance), and Cleopatra (salinity tolerance). Polyembryony in Volkamer lemon and absence of the heritable morphological markers (Cleopatra) are limiting factors for hybrid identification and morphological characters are not being segregated in Kinkoji and Swingle citrumelo at early stage, then molecular markers are employed for detection of putative zygotic seedlings. We performed hybridization between Volkamer lemon (♀), Kinkoji (B cross) (58 F
1
) (♂), Swingle citrumelo (D cross) (71 F
1
) (♂), Cleopatra (N cross) (83 F
1
) (♂) and discriminate the hybrids by using 25 SSR markers. The fifteen markers were found efficient for hybrid identification (> 71% hybrids detected). CCSME23 (88.21%) marker has detected 187 hybrids in all crosses thereafter, 184 hybrids detected each by HvSSRCS-2, HvSSRCS-135, HvSSRCS-237, HvSSRCM-92 and HvSSRCM-466 with 86.79%. A total of 44 qualitative and 18 quantitative characters were analysed. Fifteen qualitative and six quantitative characters were found significant variability in leaf, spine, branch, and stem. Sufficient amount of genetic variability was detected through phylogenetic analysis and population structure analysis showed two subpopulations in B and N cross but in D cross five subpopulations were detected. After primary screening, nine F
1
hybrids for citrus greening tolerance and twelve F
1
hybrids for
Phytophthora
tolerance were identified. The newly developed F
1
hybrids exhibited phenotypic and genetic diversity along with disease tolerance. These potential hybrids may be recommended for commercial citriculture after thorough horticultural evaluation. Rough lemon is indigenous and has wide adaptability in Indian citriculture. Rough lemon and Volkamer lemon are comparable in horticultural performance and their resistance against biotic and abiotic stresses are almost similar but Volkamer lemon has better adaptability in different agroclimatic conditions. To improve Volkamer lemon hybridization has been attempted with Kinkoji (citrus greening tolerance), Swingle citrumelo (Phytophthora resistance), and Cleopatra (salinity tolerance). Polyembryony in Volkamer lemon and absence of the heritable morphological markers (Cleopatra) are limiting factors for hybrid identification and morphological characters are not being segregated in Kinkoji and Swingle citrumelo at early stage, then molecular markers are employed for detection of putative zygotic seedlings. We performed hybridization between Volkamer lemon (♀), Kinkoji (B cross) (58 F1) (♂), Swingle citrumelo (D cross) (71 F1) (♂), Cleopatra (N cross) (83 F1) (♂) and discriminate the hybrids by using 25 SSR markers. The fifteen markers were found efficient for hybrid identification (> 71% hybrids detected). CCSME23 (88.21%) marker has detected 187 hybrids in all crosses thereafter, 184 hybrids detected each by HvSSRCS-2, HvSSRCS-135, HvSSRCS-237, HvSSRCM-92 and HvSSRCM-466 with 86.79%. A total of 44 qualitative and 18 quantitative characters were analysed. Fifteen qualitative and six quantitative characters were found significant variability in leaf, spine, branch, and stem. Sufficient amount of genetic variability was detected through phylogenetic analysis and population structure analysis showed two subpopulations in B and N cross but in D cross five subpopulations were detected. After primary screening, nine F1 hybrids for citrus greening tolerance and twelve F1 hybrids for Phytophthora tolerance were identified. The newly developed F1 hybrids exhibited phenotypic and genetic diversity along with disease tolerance. These potential hybrids may be recommended for commercial citriculture after thorough horticultural evaluation. Rough lemon is indigenous and has wide adaptability in Indian citriculture. Rough lemon and Volkamer lemon are comparable in horticultural performance and their resistance against biotic and abiotic stresses are almost similar but Volkamer lemon has better adaptability in diff erent agroclimatic conditions. To improve Volkamer lemon hybridization has been attempted with Kinkoji (citrus greening tolerance), Swingle citrumelo ( Phytophthora resistance), and Cleopatra (salinity tolerance). Polyembryony in Volkamer lemon and absence of the heritable morphological markers (Cleopatra) are limiting factors for hybrid identifi cation and morphological characters are not being segregated in Kinkoji and Swingle citrumelo at early stage, then molecular markers are employed for detection of putative zygotic seedlings. We performed hybridization between Volkamer lemon (♀), Kinkoji (B cross) (58 F 1 ) (♂), Swingle citrumelo (D cross) (71 F 1 ) (♂), Cleopatra (N cross) (83 F 1 ) (♂) and discriminate the hybrids by using 25 SSR markers. The fi fteen markers were found effi cient for hybrid identifi cation (> 71% hybrids detected). CCSME23 (88.21%) marker has detected 187 hybrids in all crosses thereafter, 184 hybrids detected each by HvSSRCS-2, HvSSRCS-135, HvSSRCS-237, HvSSRCM-92 and HvSSRCM-466 with 86.79%. A total of 44 qualitative and 18 quantitative characters were analysed. Fifteen qualitative and six quantitative characters were found signifi cant variability in leaf, spine, branch, and stem. Suffi cient amount of genetic variability was detected through phylogenetic analysis and population structure analysis showed two subpopulations in B and N cross but in D cross fi ve subpopulations were detected. After primary screening, nine F 1 hybrids for citrus greening tolerance and twelve F 1 hybrids for Phytophthora tolerance were identifi ed. The newly developed F 1 hybrids exhibited phenotypic and genetic diversity along with disease tolerance. These potential hybrids may be recommended for commercial citriculture after thorough horticultural evaluation. KCI Citation Count: 0 |
Author | Sidhu, Gurupkar Singh Singh, Jagveer Gaikwad, Popat Nanaso |
Author_xml | – sequence: 1 givenname: Popat Nanaso orcidid: 0000-0001-7573-4541 surname: Gaikwad fullname: Gaikwad, Popat Nanaso organization: School of Agricultural Biotechnology, Punjab Agricultural University – sequence: 2 givenname: Jagveer surname: Singh fullname: Singh, Jagveer organization: Department of Fruit Science, College of Horticulture & Forestry, Acharya Narendra Deva University of Agriculture and Technology – sequence: 3 givenname: Gurupkar Singh orcidid: 0000-0002-7109-9592 surname: Sidhu fullname: Sidhu, Gurupkar Singh email: gurupkar-soab@pau.edu organization: School of Agricultural Biotechnology, Punjab Agricultural University |
BackLink | https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART003091647$$DAccess content in National Research Foundation of Korea (NRF) |
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Keywords | Microsatellite Disease tolerance Zygotic seedling Hybridization Polyembryony Variability |
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PublicationTitle | Horticulture, environment and biotechnology |
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SubjectTerms | Adaptability Agriculture Bacterial diseases Biomedical and Life Sciences Citroncirus Citrus fruits Citrus greening Citrus obovoidea Citrus reshni Citrus reticulata Disease tolerance Fruits Genetic diversity Genetic markers Genetic variability Horticulture Hybridization Hybrids Lemons Life Sciences Microsatellites Morphology Phylogeny Phytophthora Plant bacterial diseases Plant Breeding/Biotechnology Plant diseases Plant Ecology Plant Physiology Population structure Qualitative analysis Research Report Salinity tolerance Seedlings Spine Structural analysis Subpopulations 농학 |
Title | Identification and diversity analysis of interspecific citrus rootstock hybrids with combination of morphological traits and microsatellite markers |
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